巴西专利BR102013024646B1 reaper and method to cut and laterally stream a crop material discharge stream from an agricultural

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专利摘要:
ACTIVE PLANTING ROW DRIVING COATINGS A system for positioning long-row guiding bulkheads of harvest material projecting generally backwards next to the harvest material discharge stream as it leaves an agricultural reaper. The bulkheads are coupled for simultaneous coordinated movement and repositioned by a motorized actuator in response to a manual entry by a vehicle operator or automatically by a controller based on a deflection of the steering angle between a tractor and a towed implement. The system can be adapted for use with a single implement being operated on a hillside to control diversion of long rows of harvest material. The system can also be used with front-mounted and towed harvesters simultaneously operated to direct harvest material discharge flows to a long row of joined harvest material.
公开号:BR102013024646B1
申请号:R102013024646-8
申请日:2013-09-25
公开日:2020-11-03
发明作者:Jeffrey Fay Ii
申请人:Cnh Industrial America Llc；
IPC主号:

专利说明:

BACKGROUND OF THE INVENTION
This invention relates generally to harvesters, such as harvesters, of the type having guide panels to influence the trajectory of the harvest material being discharged by the reaper and, more particularly, to a system for automatically repositioning the guidance panels of harvesting to ideally position a long row of harvesting material to be fitted by a trailing implement even when the combine is crossing a path that is not straight.
Single pass harvesting operations often involve mounting a reaper at the front of a tractor and towing a baler or other implement behind the tractor where it fits the long row of cut harvest material deposited on the ground by the reaper. Although supply of the harvested harvest material for the towed implement is normally centered during straight operation on a flat surface, the system cannot effectively direct the long row of cut harvest material to the towed implement during curves or on hill slopes . Front-mounted implements and towed trails travel in different turning radii as the vehicle turns, and long rows of cut harvest material tend to accumulate on the hill descent during hill slope operation. Misalignment of the long row of harvest material and the towed implement collection assembly causes cut crop material to be left in the field and / or causes uneven feeding resulting in collection assembly obstruction, lower feeding performance or deformed bales.
Harvest flow discharged by the reaper is directed using a combination of bulkheads, guides and deflectors positioned to act on the harvest material as it is discharged by the reaper or a conditioning mechanism and to direct the harvest material to an arrangement desired on the ground. Current machines include screens for long rows of harvesting material that can be adjusted, either manually or by means of a manually operated mechanical device, for various widths or long row arrangements of harvesting material to direct the long file of material sideways. to one side of the machine or the other. Bulkhead adjustment is typically performed using tie rods attached to the reaper's rear frame or rear body that allow the bulkheads to be positioned to produce a long row configuration of desired harvest material. Such arrangements typically do not allow dynamically adjusting the bulkheads in response to changing tractor and implement alignments.
In DE 199 50 748, the reaper conditioner is shown to have a conditioning device which is mounted to be selectively displaced transversely in the direction of travel so as to be the displacement relative to the longitudinal center line of the cutting device. Associated with the conditioning device is a harvest guide device that can be selectively adjusted to cause a narrow flow of conditioned harvest to be deposited on opposite sides of a longitudinal center line of the conditioning device. This harvesting guide device can be adjusted manually by a person in operation or by sensors that shade it, for example, spacing in relation to a side strip.
It would be desirable to provide a bulkhead positioning device for harvesting material that was adapted to not use manual devices to reposition the bulkheads for harvesting material to alter lateral placement of the resulting long row of harvesting material in response to the field conditions then gifts. The benefits are extended by a bulkhead positioning device for harvesting material that includes automatic bulkhead adjustment to dynamically adjust bulkhead position for harvesting material so that a long row of harvesting material from a reaper mounted at the front is ideally positioned for collection by a towed implement, even when the tractor and implement combination curves from a straight path. Additional benefits would be achieved through the bulkhead positioning device for harvesting material that would allow the vehicle operator to manually adjust the bulkhead position for harvesting material to satisfy the field conditions encountered. Additional benefits would also be achieved through a bulkhead positioning device for harvesting material that could be easily incorporated into current production reaper-conditioners without significantly altering the machine design. SUMMARY OF THE INVENTION
In this way, the present invention, in any of the modalities described in this document, can provide one or more of the following advantages: An objective of the present invention is to provide a targeting mechanism for guiding long rows of harvest material in an agricultural reaper that enables lateral deflection of the harvest material discharge flow to be selectively altered during machine operation.
Another objective of the present invention is to provide an active steering mechanism for long row guides of harvesting material coupled to a front-mounted agricultural harvester and operated in combination with a towed agricultural implement having a harvesting material collector in that the active steering mechanism keeps the long row of harvest material positioned for collection by the towed implement, even when the machine is making a curve from a straight path.
Another objective of the present invention is to provide a targeting mechanism for long row guides of harvesting material on a front-mounted agricultural harvester and operated in combination with a towed agricultural implement with a harvester. harvesting where the steering mechanism allows the long row of harvesting material to be positioned for collection by the towed implement as the machine traverses uneven terrain, such as a hill slope.
An additional objective of the present invention is to provide a steering mechanism for long row guides of harvest material on an agricultural harvester that enables lateral deflection of the flow of discharge of harvest material on a front mounted and operated harvester. combination with a centrally articulated towed reaper also equipped with the said steering mechanism to eliminate the need for a device for joining long rows of separate harvest material.
It is a further object of the present invention to provide a guidance mechanism for positioning adjustable harvest material guides on a farm reaper that is durable in construction, inexpensive to manufacture, easy to maintain, easily and simply assembled and effective to use.
These and other objectives are achieved in accordance with the present invention by providing a system for positioning long-row guiding bulkheads of harvesting material projecting generally backwards beside the discharge flow of harvesting material as it comes out of an agricultural reaper. The bulkheads are coupled for simultaneous coordinated movement and repositioned by a motorized actuator in response to a manual entry by a vehicle operator or automatically by a control system based on a deflection of the steering angle between a tractor and a towed implement. The system can be adapted for use with a single implement being operated on a hill slope to control deviation from a long row of harvest material. The system can also be used with front-mounted and towed harvesters simultaneously operated to direct harvest material discharge flows to a long, joined row. BRIEF DESCRIPTION OF THE DRAWINGS
The advantages of this invention will be apparent upon consideration of the following detailed disclosure of the invention, especially when considered in combination with the accompanying drawings in which:
Figure 1 is a plan view of a typical agricultural tractor having a front mounted reaper incorporating the principles of the present invention and towing an arranged baler for single pass harvest operations;
Figure 2 is a plan view of the tractor and equipment combination in Figure 1 illustrating relative positions as the combination is making a turn;
Figure 3 is a plan view of an agricultural equipment having a first reaper mounted on the front and towing a second reaper in which both reapers incorporate the present invention configured for joining two long rows of harvest material;
Figure 4 is a partial plan view of a reaper as shown in Figures 1 to 3 incorporating an embodiment of the present invention; and
Figure 5 is a schematic diagram of a control system for managing movement of long-row guideheads of targetable harvest material. DESCRIPTION OF THE PREFERRED MQDALITY (S)
Many of the fixings, connections, processes and other devices and components used in this invention are widely known and used in the field of the described invention, and their exact nature or type is not necessary for an understanding and use of the invention by those skilled in the art. , and they will therefore not be discussed in significant detail. Also, any reference in this document to the terms "right" and "left" is used as a matter of convenience, and is determined by staying at the rear of the machine facing its normal direction of travel. Likewise, "front" and "rear" are determined by the normal direction of travel. "Up" and "down" orientations are in relation to the ground or operating surface as well as any references to "horizontal" and "vertical" planes. In addition, the various components shown or described in this document for any specific application of this invention can be varied or changed as provided by this invention and the practice of a specific application of any element can already be widely known or used in the technique by those skilled in the art and equally each, therefore, will not be discussed in significant detail. When referring to the figures, equal parts are numbered equally in all figures.
Referring to the figures, figures 1 and 2 in particular show top views of an agricultural tractor 5 having a front mounted reaper 10 to cut an agricultural product that remains vertical in relation to the ground and towing an agricultural implement 15 to collect harvest material as tractor 5 is moved forward over the ground (along geometry axis 100) in what is commonly referred to as a single pass harvest operation. The exemplary towed implement 15 shown in figures 1 and 2 is a baler, but it can be any towed implement that collects cut material from the soil for subsequent processing or baling.
Referring specifically to figure 4 in combination with the other figures, oceifador 10 is operationally connected to the tractor and supported by it using the frame 11 which is preferably configured for connection to a conventional three-point front mounted fixture (not shown) ). The frame 11 and the fixture are thus configured to raise and lower the reaper 10 in relation to the ground surface to support cutting and transport operations. The standing crop 1 is cut on the ground by a cutting device arranged transversely 22 as a result of which it is converted centrally into the reaper 10. A conditioning mechanism 24, if present, may comprise a pair of conditioning elongated transversely as shown, or it may comprise a knitting-type conditioner in which harvest material passes between a single roll with radially arranged knitting devices and a closely adjacent adjacent surface in order to shatter the harvest material. The harvest material is then ejected backwards by the conditioning mechanism 24 in an air-borne stream as a result of which a pair of the long row of harvest material guiding bulkheads 25a, 25b positioned laterally adjacent to the flow of harvest material airborne on opposite sides of the flow interact with the flow. The generally vertical flat surface of each of the guiding bulkheads interacts with the collection material flow and thus influences the width and lateral path of the collection material flow. The front end of each of the long row guiding shields of harvest material 25 is pivotally connected to the reaper 10 by the generally vertically oriented joints 26a, 26b that allow the opposite (free) ends of the guiding shields long row of harvest material sway in and out with respect to the longitudinal centerline of the reaper 100.
In the present invention, the long-row guiding shields of harvest material 25a, 25b are connected for simultaneous articulation movement by the connecting rod 29. The connecting rod 29 is configured in such a way that the guiding shields are moved in unison ( for example, the bulkheads move in the same lateral direction when displaced). Movement of the long row of guide material of harvest material is performed by the movement of the driver 32 which is connected to the frame 11 at one end and the opposite end is connected to one of the long line of guide material of the harvest material 25 or to the connecting rod 29. The connecting rod 29 may be of one-piece or multi-piece construction and shall allow adjustment of the normal position of the long row of harvest material guiding shields to accommodate long rows of long harvest material. various widths. Actuator 32 can be an electric actuator, hydraulic cylinder, or linear actuator, or the like that is capable of selectively positioning the long row guide shields of harvest material in response to an input signal.
When coupling the long-row guiding shields of harvest material 25, the shields can be “directed” during operation to deposit cut harvest material in the path of the towed implement 15. In straight forward travel, the shields are placed in a position normal, aligned along the geometric axes 60a, 60b. The normal position of the long row guiding bulkheads of harvest material can be adjusted manually by changing the length of the connecting rod 29 and / or the connecting position on the bulkheads 25 to change the width of the long row of harvesting material. resulting harvest. During a curve to the right (see figure 2), the long row bulkheads of harvest material will direct to the right (by an angle θ from the normal geometric axes 60a, 60b) so that the harvest material cut is directed to the center of the curve where it can be collected by the collector of the towed implement.
Referring now to figure 5 with reference to figures 1 to 4, a control system 80 for managing the position of the long row guidance material bulkheads 25a, 25b is shown comprising a control unit 82 configured to receive a plurality of position input signals from a tractor steering sensor 83, a manual input control 84, a towed implement hitch angle sensor 85 and a manually activated input switch 89, each operationally connected to control unit 82 by input conductors 183, 184, 185 and 189 respectively. A guide bulkhead position feedback signal generated by trigger relay 35 or trigger 32 (depending on the type of trigger used) can be sent to the control unit by feedback driver 135 to enhance functionality control when using guiding bulkhead position feedback. Alternatively, the control system can simply determine bulkhead position based on position output signals directed to the driver 32 when in active control to reduce system cost and complexity. An output signal from the control unit 82 is sent to the driver 32 via output conductor 235 to manage the position of the guiding shields 25, whether by active or passive control devices. Control unit 82 can be a programmable control system employing a microprocessor or the like capable of receiving input signals and generating output signals in response to them. Communication conductors can be dedicated circuits, incorporated into a vehicle communication bus (for example, CANBUS), or a combination thereof. Use of such on-board computer control systems that are typically present in tractors of the type normally capable of handling substantial front-mounted implements also easily allows an operator display to be incorporated to provide visual indication of the guiding bulkhead position. long row of harvesting material, operating mode, danger alerts and more without requiring additional equipment added to the tractor.
Controlling the position of the long-row guiding bulkhead 25 is by means of an operator-controlled passive switch 84 or an active function managed by control unit 82. A mode switch 87 allows the vehicle operator to choose between automatic and passive modes of guiding bulkhead control. The mode switch can be provided as a stand-alone switch or integrated with an existing on-board operator control interface that is commonly installed on tractors of the type where front and tow harvesters are operated simultaneously. In one embodiment, the manually activated input switch 89 is an articulated spring return switch to the three-position center. The control unit 82 operates in the active steering mode when the active function is selected by the mode switch 87 and the manually activated input switch 89 is in the center position. If the vehicle operator needed to manually adjust the position of the long-stem guide bulkhead of harvest material, moving the manually activated input switch 89 to the left or right would disengage the active steering function and manually adjust the position of screen in the desired direction. A fixed rate of movement allows the vehicle operator to press and hold the manually activated input switch 89 in the desired direction until the desired bulkhead position is reached. The manually activated input switch returns to the central position upon release, but the shields remain in position until the active mode is re-engaged using the 87 mode switch. Alternatively, an input control switch separate manual 84 can be provided to allow the vehicle operator to manually adjust the long row guiding bulkhead position of the harvest material when the system operates in passive mode. Input control 84 is preferably a two-position momentary switch. Turning the switch to the left directs the screens to the left; equally, turning to the right directs the bulkheads to the right. Economy and operational ease are improved by combining the function of the input control switch 84 and the manually activated input switch 89 in a single switching unit.
When operating in the active control mode, the control system 82 determines a desired longitudinal guiding bulkhead guidance position (θ) based on the steering angle (<t>) provided by the steering direction sensor. tractor 83 and the implement angle to the tractor centerline (Y) provided by the implement hitch angle sensor 85 using a track offset error ratio of e = + Y. The basic control function is defined by the relation: θ = a (Φ + Υ) + b where a is equal to the ratio of long row bulkhead targeting of harvest material based on tractor wheelbase and b is equal to the maximum long row bulkhead position of harvest material based on tractor trail.
The automatic function allows the guiding shields to be positioned properly. The operator-activated manual input function is provided to allow the vehicle operator to direct long-row bulkheads of harvest material to compensate for implement displacement, as would be required during extreme hill slope operation when the bulkheads are moved in the direction opposite to that in which the tractor is directed. When a single-pass system moves downward to the right, for example, the tractor is typically directed upward to the right for compensation. The control system 82 monitors both the steering angle (<t>) and the implement angle in relation to the tractor center line (Y). This direction correction can cause the active bulkhead guidance system to deposit the harvest material on the right side, rising from the towed implement, causing misalignment of the long row of additional harvest material. The center position can be selected to provide active operation, where the long row bulkheads of harvest material are positioned based on the tractor steering angle and implement hitch angle, which controls most of the field and terrain conditions encountered usually. The left and left manual override positions can then be selected to override the active operation and place the long row bulkheads of harvest material in position for better alignment with the towed implement during operation on extreme hill slope or in other conditions when the active function is not ideally placing the long row front reaper of harvest material.
Referring to figures 3 and 5, the tractor 5, the reaper 10 and a towed implement are shown, in which the towed implement is a towed reaper 16 which has been equipped with the long row guide shields of harvest material switchable 25 similar to the shields provided on the front mounted reaper 10. In this configuration, the control system 82 provides output signals for two actuators 32, one for the front mounted reaper 10 via output conductor 235 and one according to 32b for the towed reaper 16 via outlet driver 236, the exemplary towed reaper 16 being a centrally articulated reaper. In this mode of operation, the operational objective is to direct the long rows of harvesting material from the two harvesters to a single side location (joint) without the need for a separate joining device.
This operational objective is achieved by positioning the front row guidance guards of front harvest material 25 to direct the long row of harvest material to the side on which the towed reaper is located, shown as the 0F angle in figure 3. The long row guiding bulkheads of front harvest material 25, once so positioned, will remain stationary in the passive mode of the control system (for example, no guiding bulkhead position adjustment based on steering or hitch angle ). The long row of harvest material guideways 125 on the towed harvester 16 are positioned to direct the long row of harvest material to the tractor centerline, shown as the 0R angle in figure 3 which is opposite in direction to 9F. The result of aligning the front row guiding bulkheads 25 and the rear guiding bulkheads 125 in opposite directions is to place the long row of towed reaper harvesting material 16 on or adjacent to the long row of material harvesting of the front reaper 10 so that both long rows of harvest material can be collected in a single subsequent pass by a harvest material conditioning implement, such as a baler. In this operating mode, the control system 82 detects the lateral position of the implement 16. The lateral position of the implement can be determined by using the coupling angle sensor 85 positioned on the implement / tractor connection as in the configuration described above for attachments. towed or by relocating the hitch angle sensor 85 on the trailing implement to implement 16 to measure the angle of displacement of the link arm or implement ψ in relation to the implement itself, a common measurement in harvesters. central articulation. The latter approach is preferred to eliminate tractor turning from determining the lateral displacement of the towed implement 16. As the displacement angle ψ increases, the control system82 will send an exit signal to the rear driver 32b to position the long row of harvest material guiding shields to direct the long row of harvesting material to the tractor centerline 100. During typical central articulation reaper operation, the guiding shields in general will be positioned at the 0R OR limit near it in order to direct the long row of harvest material as far as possible towards the tractor center and the long row of harvest material deposited by the reaper mounted in front 10. Only when the central articulated reaper is moved to the position behind the tractor (ψ approaches 0) is that the operator will begin to adjust the position of the bulkheads using a long row of rear harvest material 125 and reducing the angle 0R in the direction of a normal position (comparable to alignment 60a, 60b described in connection with the front mounted reaper 10).
The active / passive and mode switching functions for combining two harvesters operating to join long rows of harvesting material are as previously described for the front mounted mowing / trailing implement combination function. Additional control inputs can be provided through the operator interface to establish the control system for a front guiding bulkhead control or rear guiding bulkhead control as appropriate.
It will be understood that changes in the details, materials, stages and arrangements of parts 5 that have been described and illustrated to explain the nature of the invention will occur and can be made by those skilled in the art by reading this disclosure within the principles and scope of the invention. The description set out above illustrates the preferred embodiment of the invention; however, concepts, such as based on the description, can be used in other modalities without departing from the scope of the invention.

权利要求:
Claims (15)
[0001]
1. Reaper (10,16) for connection to an agricultural tractor (5), the reaper (10, 16) comprises a cutting device (22) for cutting a standing agricultural product from the ground and a cutting device harvest guide to direct an airborne flow of harvest material behind the reaper to form a long row on the ground, the harvest guide apparatus comprising: - first and second long row guiding shields (25a, 25b; 125), each long row guiding bulkhead (25a, 25; 125) having opposite front and rear ends and positioned on opposite sides of the airborne harvest material flow, each of the long row guiding bulkheads (25a, 25b; 125) being pivotally coupled near the front end to the reaper (10,16) to enable the respective rear ends of the bulkheads to move laterally in and out in relation to the harvest flow it transports through the air; - a driver (32) configured to cause the first and second long-row guiding pivots to pivot between opposite extreme right and left positions; and - a control system (80) configured to receive at least one input signal (184, 187, 189) from the reaper or an operator input device, the least input signal is used to determine a desired guiding bulkhead position based on having received at least one input signal and initiating a representative trigger signal (235) on them, the trigger signal being sent to the trigger (32) and causing the trigger position articulation of the first and second long row guiding bulkheads laterally influence the long row as the tractor moves away from a straight forward path, CHARACTERIZED by the fact that the control system (80) is further configured to receive at least one input signal (183) from the directional angle sensor (83) to measure a steering angle (ψ) from the agricultural tractor (5).
[0002]
2. Reaper, according to claim 1, CHARACTERIZED by the fact that the control system (80) is further configured to receive at least one input signal (185) from an implement hitch angle sensor (85 ) to measure a coupling angle of a towed implement (15, 16) relative to the tractor (5).
[0003]
3. Reaper, according to any of the preceding claims, CHARACTERIZED by the fact that the operator's input device is configured to generate and send a first input signal (187) to the control system (80) having at least minus an active state and an inactive state, the control system (80) is additionally configured with an active mode and an inactive mode fitted upon receipt of the respective active state or inactive state of the first input signal from the operator (187 ) from the operator's input device.
[0004]
4. Reaper according to claim 3, CHARACTERIZED by the fact that the operator input device additionally comprises a manually activated input device (89) configured to generate and send a second operator input signal (189) to the control system (80), the second input signal from the operator (189) having at least a left state, a neutral state and a right state, the control system (80) being configured to automatically start the trigger (235) when in active mode and the second input signal from the operator is in the neutral state, the control system (80) additionally configured to initiate the trigger signal (235) to cause movement of the first and second guiding a long row towards the extreme right or extreme left position in response to receiving the right or left status signal, respectively, and to switch from active to ina mode thus enabling non-automatic positioning of the long-row guiding bulkheads.
[0005]
5. Reaper according to claim 3, CHARACTERIZED by the fact that the operator input device additionally comprises a manual input device (84) configured to generate and send a third operator input signal (184) to the system control (80), the third input signal (184) having at least one left state, a neutral state and a right state, the control system (80) additionally configured to initiate the trigger signal (235) by receiving the third operator input signal (184) when in idle mode to cause movement of the first and second long-row guiding bulkheads towards the extreme right or extreme left position, respectively, in response to the receipt of the right or left status signal.
[0006]
6. Reaper, according to any of the preceding claims, CHARACTERIZED by the fact that the control system (80) is additionally configured to receive input signals (183,184,185,187,189) from the reaper and the agricultural tractor and a operator input and a towed implement (15, 16), input signals are used to determine a desired guiding bulkhead position based on received input signals.
[0007]
7. Reaper according to any one of the preceding claims, CHARACTERIZED by the fact that the reaper additionally comprises a connecting rod (29) connecting the first and second long-row guiding bulkheads in a way that the guiding bulkheads move in unison, the connecting rod (29) is manually adjustable to allow the respective rear ends of the first and second long-row guiding bulkheads to be moved inward in the direction of the airborne harvest flow or outward away from the airborne harvest flow, thus enabling the long row width to be selectively adjusted.
[0008]
8. Reaper, according to any of the preceding claims, CHARACTERIZED by the fact that the reaper is a front mounted reaper (10).
[0009]
9. Reaper, according to any one of claims 1 to 7, CHARACTERIZED by the fact that the reaper is a towed reaper (16), being able to be connected by the coupling articulatively to a tractor (5) enabling the reaper to be moved laterally from the longitudinal centerline (100) of the tractor by varying the articulation angle (Y) of the articulation hitch.
[0010]
10. Method for cutting and laterally directing a discharge flow of harvest material from an agricultural reaper (10,16), the reaper having a cutter device arranged transversely (22) to cut a harvest row (1) in standing from the ground and unloading a flow of harvest material along a path through the air behind the reaper to form a long row on the ground, the method FEATURED by the fact that it comprises the steps of: providing first and second bulkheads long-row guideways (25a, 25b; 125), each having opposite front and rear ends and positioned on opposite sides of the airborne harvest material flow, each guide guidewire being pivotally coupled (26a, 26b) near the end ahead of the reaper to enable the respective rear ends of the bulkheads to shift laterally in and out in relation to the harvest flow airborne; providing a trigger (32) configured to cause the first and second long-row guiding shields to pivot between opposite extreme right and left positions responsive to a trigger signal (235); provide a steering angle sensor (83) to measure a tractor steering angle ($) and initiate a steering angle signal (183) representative of the tractor; provide a control system (80) configured to receive the steering angle signal (183), determine a desired guiding bulkhead position based on the received signal and initiate the trigger signal (235) representative of it, the actuator being sent to the actuator (32) to reposition the first and second long row guiding bulkheads (25a, 25b; 125); operate the tractor-reaper in a way to cut the crop upright and discharge the flow of mowed material carried by the air as a result of which the flow interacts with the first and second long row guiding bulkheads; direct the tractor on a path not in a straight line, thus changing the steering angle ($) to different from zero; measure the steering angle (<t>) by the steering angle sensor (83) and send a steering angle signal (183) to the control system (80); determine by the control system (80) a desired guiding bulkhead position (θ) based on the received steering angle signal (183); and initiate the trigger signal (235) through the control system (235) and send the trigger signal to the trigger (32) causing the articulation position of the first and second long row guiding shields to be placed in such a way that a towed implement (15) interacts with the long row as the tractor (5) turns.
[0011]
11. Method according to claim 10, CHARACTERIZED by the fact that it additionally comprises the steps of: providing an implement trail angle sensor (85) to measure a trail angle (Y) of the towed implement (15) in relation to the tractor (5) and initiate an implement drag angle signal (185) representative of the same; and determining by the control system (80) a desired guiding bulkhead position based on the received steering angle signal (183) and implement trailing angle signal (185).
[0012]
12. Method, according to claim 11, CHARACTERIZED by the fact that it additionally comprises the steps of: providing an operator input device configured to generate and send a first operator input signal (187) to the control system ( 80), the operator's first input signal (187) having at least one active state and one inactive state; configure the control system (80) with an active mode and an embedded inactive mode upon receipt of the respective active state or inactive state of the first input signal (187); engage the active mode by which the control system (80) determines the desired guiding bulkhead position based on the received steering angle signal (183) and implement drag angle signal (185) and initiates and communicates the steering signal actuator (235) for the actuator (32) so that the first and second long file guiding bulkheads are positioned in such a way that the towed implement (15) interacts with the long row as the tractor turns; and undock the active mode by which the control system (80) does not determine the desired guiding bulkhead position.
[0013]
13. Method according to claim 12, CHARACTERIZED by the fact that it additionally comprises the steps of: providing a manually activated input device (89) configured to generate and send a second operator input signal (189) to the control system (80), the second input signal from the operator (189) having at least one left state, one neutral state and one right state; configure the control system (80) to automatically initiate the trigger signal (235) when in active mode and the second input signal is in neutral, and to initiate the trigger signal to cause movement of the first and second bulkheads of long-row guidance towards the extreme right or left extreme position in response to receiving the right or left status signal, respectively, and to switch from active to inactive mode enabling this way non-automatic positioning of long-row guiding bulkheads; and move the manually activated input device (89) away from the neutral state in the direction of the right or left state by a user, thus enabling the user to manually position the long row guiding shields.
[0014]
14. Method, according to claim 13, CHARACTERIZED by the fact that the reaper (10) is mounted on the front of the tractor (5) and the towed implement (15) includes a collection harvester assembly that interacts with the long row at the lift the long row of harvesting material and deliver it to the towed implement.
[0015]
15. Method, according to claim 12, CHARACTERIZED by the fact that the towed implement is a central articulation reaper (16) and further comprising the steps of: providing a displacement angle sensor (85) to measure a displacement angle (Y) of the central articulation reaper (16) in relation to the tractor and initiate an implement displacement angle signal (185) representative of the same; providing first and second long-row guiding bulkheads (125) and an actuator (32b) on the central articulated reaper (16); configure the control system (80) to receive the implement offset angle signal (185), determine a desired guiding bulkhead position for the first and second central heaping reaper guiding bulkheads based on the received signal and initiating a trigger signal (235) to the central hinged reaper representative of the same when in active mode, the trigger signal being sent to the central hinged reaper trigger; operate the tractor with the side-hinged central articulation reaper; detect the displacement angle by the displacement angle sensor and initiate the displacement angle signal; and determine by the control system (80) the desired guiding bulkhead position to laterally influence the long row of harvest material in the direction of a longitudinal center line (100) of the tractor and send the trigger signal to the drive - central joint reaper pain.

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同族专利:

公开号 | 公开日

EP2710875B1|2016-05-25|

BR102013024646A2|2016-04-19|

US10582659B2|2020-03-10|

EP2710875A1|2014-03-26|

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US20140083071A1|2014-03-27|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US3059403A|1959-07-15|1962-10-23|Bamfords Ltd|Hay tedding and windrowing machine|

US3523410A|1968-04-26|1970-08-11|Clyde L Taylor|Apparatus for mowing,conditioning and windrowing forage|

US3721073A|1972-04-10|1973-03-20|Int Harvester Co|Method of processing,positioning and aerating crops|

US3841070A|1972-08-02|1974-10-15|Int Harvester Co|Windrow placement device and harvesting method|

US3911649A|1973-09-25|1975-10-14|Int Harvester Co|Windrow placement device and harvesting method|

US4078366A|1976-05-03|1978-03-14|Elmo Carmichael|Lateral movement of side delivery rake|

US4099364A|1976-11-04|1978-07-11|Owatonna Manufacturing Company, Inc.|Fluffer shield system for crop harvester|

FR2627942B1|1988-03-04|1990-08-10|Kuhn Sa|IMPROVEMENT IN AGRICULTURAL MACHINES FOR HARVESTING|

US5412929A|1993-10-25|1995-05-09|Urbain; Clete|Steerable tandem implement hitch|

US5778647A|1996-06-25|1998-07-14|New Holland North America, Inc.|Disc mower conditioner|

US5930988A|1997-07-18|1999-08-03|Hay & Forage Industries|On-the-go from the tractor seat windrow adjustment|

DE19950748A1|1999-10-21|2001-04-26|Deere & Co|Mower|

DE19951079A1|1999-10-23|2001-04-26|Deere & Co|Harvester|

FR2855012B1|2003-05-23|2006-06-02|Kuhn Sa|FEED TREATING DEVICE WITH TWO GUIDING ELEMENTS|

DE102008014001A1|2008-03-13|2009-09-17|Claas Selbstfahrende Erntemaschinen Gmbh|Agricultural harvester with a transfer device|

US8234033B2|2009-06-12|2012-07-31|Cnh America Llc|Guidance method for agricultural vehicle|

US20110029909A1|2009-07-31|2011-02-03|Agco Corporation|User Interface With Biomass Deflection Information|

US8589013B2|2011-10-25|2013-11-19|Jaybridge Robotics, Inc.|Method and system for dynamically positioning a vehicle relative to another vehicle in motion|EP2656714A1|2012-04-26|2013-10-30|Macdon Industries Ltd|Pull-type crop harvesting machine transport system including a swath protection shield|

US9622404B2|2013-09-11|2017-04-18|Cnh Industrial America Llc|Integral lateral transport of a mower|

US9596808B2|2014-04-30|2017-03-21|Cnh Industrial America Llc|Transport system for a center pivot agricultural machine|

US9974232B2|2014-06-06|2018-05-22|Cnh Industrial America Llc|Spreader width control|

US9603306B2|2014-07-09|2017-03-28|Cnh Industrial America Llc|Agricultural machine with retaining elements for retaining a header in an elevated position|

US9565800B2|2014-09-08|2017-02-14|Cnh Industrial America Llc|Windrow shield control system for a header of an agricultural harvester|

FR3039966B1|2015-08-12|2018-02-09|Kuhn S.A.|DEVICE FOR FORMING AN ANDAIN|

DK3162182T3|2015-10-29|2018-05-22|Kverneland Group Kerteminde As|SWATHING UNIT|

US10448570B2|2016-10-28|2019-10-22|Deere & Company|System of laying swath of cut crop for improved dry down time and method thereof|

EP3378302B1|2017-03-21|2020-02-26|Kverneland Group Mechatronics BV|Agricultural method for forming from previously-cut agricultural crop a windrow on a field|

US10806078B2|2017-05-12|2020-10-20|Deere & Company|Control system for adjusting conditioning rollers of work vehicle|

US10912255B2|2017-05-12|2021-02-09|Deere & Company|Control system for adjusting forming shield of windrowing work vehicle|

US10772257B2|2017-05-12|2020-09-15|Deere & Company|Multi mode crop forming shield adjustment mechanism|

US10813287B2|2017-05-12|2020-10-27|Deere & Company|Control system for adjusting swath flap of windrowing work vehicle|

CN108040591B|2017-12-22|2020-07-17|安徽省枫浩农业科技有限公司|Material distribution structure of grass mower for aquaculture|

EP3731621B1|2017-12-27|2022-02-02|AGCO Corporation|Agricultural baler pickup with lateral adjustment|

US20210120727A1|2019-10-24|2021-04-29|Deere & Company|Mower implement guidance system|

CN113016339B|2021-04-22|2022-03-04|中国热带农业科学院农业机械研究所|Traction mechanism capable of being adjusted during running and pineapple leaf harvester comprising same|

法律状态:
2016-04-19| B03A| Publication of a patent application or of a certificate of addition of invention [chapter 3.1 patent gazette]|

2016-10-18| B25D| Requested change of name of applicant approved|Owner name: CNH INDUSTRIAL AMERICA LLC (US) |

2018-03-06| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2018-03-13| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2018-03-20| B06I| Publication of requirement cancelled [chapter 6.9 patent gazette]|Free format text: ANULADA A PUBLICACAO CODIGO 6.6.1 NA RPI NO 2462 DE 13/03/2018 POR TER SIDO INDEVIDA. |

2019-06-04| B07A| Application suspended after technical examination (opinion) [chapter 7.1 patent gazette]|

2019-10-29| B07A| Application suspended after technical examination (opinion) [chapter 7.1 patent gazette]|

2020-04-07| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2020-11-03| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 25/09/2013, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

US13/626.834|2012-09-25|

US13/626,834|US20140083071A1|2012-09-25|2012-09-25|Active steering windrow shields|

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